"This is perhaps the first time that such a huge solar tornado is filmed by an imager," Xing Li of Aberystwyth University in Wales, who analyzed the SDO footage, said in a statement. "Previously, much smaller solar tornadoes were found by the [NASA/European Space Agency] SOHO satellite. But they were not filmed."

Li and other researchers will present a movie of the tornado Thursday (March 29) at the 2012 National Astronomy Meeting in Manchester, the United Kingdom.

SDO's instruments saw gases as hot as 3.6 million degrees Fahrenheit (2 million degrees Celsius) rise from a dense solar structure called a prominence, then travel about 124,000 miles (200,000 kilometers) along a spiral path into the upper solar atmosphere, researchers said.

Unlike Earth's tornados, which are driven by wind, solar twisters are shaped by our star's powerful magnetic field. They often occur in concert with violent explosions of solar plasma known as coronal mass ejections, or CMEs. Some researchers think the tornados may help trigger CMEs, which can streak through space at several million miles per hour.

CMEs that hit Earth can wreak havoc on our planet, causing temporary disruptions in GPS signals, radio communications and power grids. They also typically supercharge the dazzling light shows near Earth's poles known as the northern and southern lights.

The $850 million SDO spacecraft, which launched in February 2010, is the first in a fleet of NASA efforts to study our sun. The probe's five-year mission is the cornerstone of a NASA science program called Living with a Star, which aims to help researchers better understand aspects of the sun-Earth system that affect our lives and society.

The sun is currently in an active period of its 11-year weather cycle. The current cycle is known as Solar Cycle 24 and will peak in 2013.

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